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Active clinical trials for "Glioblastoma"

Results 1161-1170 of 1616

Tipifarnib, Radiation Therapy, and Temozolomide in Treating Patients With Newly Diagnosed Glioblastoma...

Adult Giant Cell GlioblastomaAdult Glioblastoma1 more

This phase I trial studies the side effects and best dose of tipifarnib when given together with radiation therapy and temozolomide in treating patients with newly diagnosed glioblastoma multiforme. Tipifarnib may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth. Radiation therapy uses high energy x rays to kill tumor cells. Drugs used in chemotherapy, such as temozolomide, work in different ways to stop the growth of tumor cells, either by killing the cells, by stopping them from dividing, or by stopping them from spreading. Giving tipifarnib together with radiation therapy and temozolomide may be a better way to treat glioblastoma multiforme.

Completed25 enrollment criteria

Temozolomide 12 Cycles Versus 6 Cycles of Standard First-line Treatment in Patients With Glioblastoma....

Glioblastoma

The purpose of this study is to show if prolonging treatment with temozolomide to 12 cycles improve progression-free survival in patients with glioblastoma included in this study, randomized according to o6-methylguanine-DNA-methyltransferase (MGMT) methylation status and residual disease or not, to receive an additional 6 cycles of temozolomide.

Completed20 enrollment criteria

Evaluating the Safety and Pharmacokinetics of ABT-414 for Subjects With Glioblastoma Multiforme...

Glioblastoma Multiforme

This study is evaluating the safety and pharmacokinetics of ABT-414 in subjects with glioblastoma multiforme.

Completed10 enrollment criteria

Personalized Cellular Vaccine for Recurrent Glioblastoma (PERCELLVAC2)

Glioblastoma

The treatment option for recurrent glioblastoma is limited. Immune cell based therapy for glioblastoma has shown some efficacy. This study is designed to perform a personalized clinical trial by first analyzing the expression of tumor associated antigens in patients with recurrent glioblastoma and then immunizing the patients with personalized antigen pulsed DCs. Immune responses to the immunized antigens will be monitored. Safety and efficacy will be observed in this study.

Completed14 enrollment criteria

Autologous CMV-Specific Cytotoxic T Cells and Temozolomide in Treating Patients With Glioblastoma...

Cytomegalovirus PositiveGlioblastoma4 more

This phase I/II trial studies the side effects and best dose of autologous cytomegalovirus (CMV)-specific cytotoxic T cells when given together with temozolomide and to see how well they work in treating patients with glioblastoma. Autologous CMV-specific cytotoxic T cells may stimulate the immune system to attack specific tumor cells and stop them from growing or kill them. Drugs used in chemotherapy, such as temozolomide, may work in different ways to stop the growth of tumor cells, either by killing the cells, by stopping them from dividing, or by stopping them from spreading. Giving autologous CMV-specific cytotoxic T cells with temozolomide may be a better treatment for patients with glioblastoma.

Completed52 enrollment criteria

Phase II NKTR-102 In Bevacizumab-Resistant High Grade Glioma

Anaplastic AstrocytomasAnaplastic Oligodendrogliomas1 more

High Grade Gliomas, including anaplastic astrocytomas, anaplastic oligodendrogliomas and glioblastomas (GBM), are the most common and most aggressive primary brain tumors. Prognosis for patients with high-grade gliomas remains poor. The estimated median survival for patients with GBM is between 12 to 18 months. Recurrence after initial therapy with temozolomide and radiation is nearly universal. Since May 2009, the majority of patients in the US with an initial recurrence of high-grade glioma receive bevacizumab, a monoclonal antibody against vascular endothelial growth factor (VEGF), which is thought to prevent angiogenesis in these highly vascular tumors. BEV has response rates from 32-62% and has improved overall median survival in patients with recurrent high-grade gliomas1. However, the response is short lived, and nearly 100% of patients eventually progress despite bevacizumab. No chemotherapeutic agent administered following progression through bevacizumab has made a significant impact on survival. Patients progress to death within 1-5 months after resistance develops. Therefore, patients with high-grade gliomas who have progressed through bevacizumab represent a population in dire need of a feasible and tolerable treatment. NKTR-102 is a topoisomerase I inhibitor polymer conjugate that was engineered by attaching irinotecan molecules to a polyethylene glycol (PEG) polymer using a biodegradable linker. Irinotecan released from NKTR-102 following administration is further metabolized to the active metabolite, 7-ethyl-10-hydroxy-camptothecin (SN38), that causes DNA damage through inhibition of topoisomerase. The goal in designing NKTR-102 was to attenuate or eliminate some of the limiting side effects of irinotecan while improving efficacy by modifying the distribution of the agent within the body. The size and structure of NKTR-102 results in marked alteration in pharmacokinetic (PK) profile for the SN38 derived from NKTR-102 compared to that following irinotecan: the maximal plasma concentration (Cmax) is reduced 5- to 10-fold and the half-life (t1/2 ) of SN38 is increased from 2 days to approximately 50 days. This altered profile leads to constant exposure of the tumor to the active drug. In addition, the large NKTR-102 molecule does not freely pass out of intact vasculature, which may account for relatively higher concentrations of the compound and the active metabolites in tumor tissues in in vivo models, where the local vasculature may be relatively more permeable. A 145 mg/m2 dose of NKTR-102, the dose intended for use in this phase II clinical trial (and being used in the phase III clinical program), results in approximately the same plasma exposure to SN38 as a 350 mg/m2 dose of irinotecan, but exposure is protracted, resulting in continuous exposure between dosing cycles and lower Cmax. NKTR-102 was therefore developed as a new chemotherapeutic agent that may improve the clinical outcomes of patients.

Completed38 enrollment criteria

Prospective Phase 2 Trial of Cabazitaxel in Patients With Temozolomide Refractory Glioblastoma Multiforme...

Glioblastoma Multiforme (GBM) WHO Grade IV

The proposed study is an open-label, single-arm, Phase- II trial to assess the efficacy of cabazitaxel in GBM WHO grade IV patients with a progression during or within 6 months after last temozolomide treatment (Figure 1). Cabazitaxel will be given at a dose of 25mg/m² as 1h infusion every 3 weeks with standard concomitant medication (as outlined below): On Day 1 of each cycle, patients will receive cabazitaxel at a dose of 25mg/m², administered by i.v. route in 1 hour. Cycle length for cabazitaxel is 3 weeks (21 days). New cycles of therapy may not begin until Absolute Neutrophil Count (ANC) ≥1500/mm3, platelet count ≥75 000/mm3, and non-hematological toxicities (except alopecia) have recovered to baseline. A maximum of 2 weeks (14 days) delay is allowed between 2 treatment cycles. Patients should come off treatment if treatment delay is more than 2 weeks. At least 30 minutes prior to each administration of cabazitaxel, patients will receive i.v. premedication including: An antihistamine (dexchlorpheniramine 5mg, diphenhydramine 25mg, or equivalent). In case of i.v. antihistamine other than promethazine is not being available, local practice should be followed. Corticosteroid (dexamethasone 8mg or equivalent) H2 antagonist (ranitidine or equivalent). Antiemetic prophylaxis is recommended and can be given orally or intravenously if necessary. Primary prophylaxis with Granulocyte Colony-Stimulating Factor (G-CSF) should be given on day 4 of each treatment cycle as per ASCO and ESMO guidelines.

Completed30 enrollment criteria

Phase Ib/II Study of Buparlisib Plus Carboplatin or Lomustine in Patients With Recurrent Glioblastoma...

Recurrent Glioblastoma Multiforme

This is a multi-center, phase Ib/ II study (two parts) with patients that had recurrent glioblastoma multiforme. The first part (phase Ib) was to investigate the maximum tolerated dose/Recommended phase ll dose (MTD/RP2D) of once daily buparlisib in combination with every-three-week carboplatin or buparlisib once daily in combination with every-six-week lomustine (CCNU) using a Bayesian model. Once MTD/ RP2D is established in either of the 2 arms, the corresponding phase II portion of the study was to start. Phase II was to assess the treatment effect of buparlisib in combination with carboplatin in terms of Progression Free Survival (PFS) and was to compare the treatment effect of buparlisib with lomustine versus lomustine plus placebo in terms of PFS. A preliminary assessment for both combinations (buparlisib plus carboplatin or lomustine) demonstrated that there was not enough antitumor activity compared to historical data with single agent carboplatin or lomustine. Based on the overall safety profile, and preliminary anti-tumor activity observed in this study, Novartis decided that no additional patients would be enrolled into this study. As a consequence, the Phase II part of the study was not conducted.

Completed24 enrollment criteria

Disulfiram in Treating Patients With Glioblastoma Multiforme After Radiation Therapy With Temozolomide...

Glioblastoma

This clinical trial studies disulfiram in treating patients with glioblastoma multiforme (GBM) who have completed radiation therapy with temozolomide. Disulfiram may block some of the enzymes needed for tumor cell growth and improve clinical outcome in GBM patients.

Completed23 enrollment criteria

A Proof-of-concept Clinical Trial Assessing the Safety of the Coordinated Undermining of Survival...

Glioblastoma

A proof-of-concept clinical trial assessing the safety of the coordinated undermining of survival paths by 9 repurposed drugs combined with metronomic temozolomide (CUSP9v3 treatment protocol) for recurrent glioblastoma

Completed34 enrollment criteria
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